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Quantum Mechanics-Based Structure Analysis of Cyclic Monoterpene Glycosides from <i>Rhodiola rosea</i>

Yu Tang, J. Brent Friesen, David C. Lankin, James B. McAlpine, Dejan Nikolić, Matthias Niemitz, David S. Seigler, James G. Graham, Shao‐Nong Chen, Guido F. Pauli

2020Journal of Natural Products20 citationsDOIOpen Access PDF

Abstract

NMR- and MS-guided metabolomic mining for new phytoconstituents from a widely used dietary supplement, Rhodiola rosea, yielded two new (+)-myrtenol glycosides, 1 and 2, and two new cuminol glycosides, 3 and 4, along with three known analogues, 5–7. The structures of the new compounds were determined by extensive spectroscopic data analysis. Quantum mechanics-driven 1H iterative full spin analysis (QM-HiFSA) decoded the spatial arrangement of the methyl groups in 1 and 2, as well as other features not recognizable by conventional methods, including higher order spin-coupling effects. Expanding applied HiFSA methodology to monoterpene glycosides advances the toolbox for stereochemical assignments, facilitates their structural dereplication, and provides a more definitive reference point for future phytochemical and biological studies of R. rosea as a resilience botanical. Application of a new NMR data analysis software package, CT, for QM-based iteration of NMR spectra is also discussed.

Topics & Concepts

Rhodiola roseaMonoterpeneGlycosideSalidrosideRhodiolaQuantum chemicalStereochemistryChemistryOrganic chemistryMoleculeChromatographyMedicinal Plants and Bioactive CompoundsPharmacological Effects of Natural CompoundsBiochemical Acid Research Studies
Quantum Mechanics-Based Structure Analysis of Cyclic Monoterpene Glycosides from <i>Rhodiola rosea</i> | Litcius